Areas of Application:
 
Calibration of air-conditioning cabinets as per DAkkS/DKD directive 5-7
 
Monitor your air conditioning cabinet for precise temperature and humidity conditions with the Testo 480 measuring instrument. The instrument protects your work and helps you to comply with quality standards by measuring with the accurate humidity probe (order no 0636 9743) and Pt100 temperature probe (order no. 0614 0073), which automatically compensate for non-conformities. It is easy to connect up to three humidity and Pt100 temperature probes at the same time. Calibrate your air-conditioning cabinet in compliance with the reference standard, with no errors. The Testo 480 provides smooth management and documentation of your measurement data.
 
Differential pressure measurement on filters
 
Air conditioning systems are equipped with filters which prevent dirt from the outside air entering the indoor air. These filters are to be inspected regularly to make sure they are still fully functional. To do this, the pressure is measured in front of and behind the filter. The result is the differential pressure. If it is too high, the filter is contaminated and needs changing.
 
Testo 480 uses the integral sensor to measure the differential pressure within the 25...25 hPa range. The differential pressure measurement is temperature-compensated for exact readings. Magnets on the rear of the instrument allow hands-free work.
 
Ensuring the process climate in clean rooms
 
Testo 480 is the ideal instrument for ensuring the process climate in clean rooms. Differential pressure can be checked with the internal pressure sensor to an accuracy of +/- 0.3 Pa +1% of reading. The air temperature is measured with the accurate Pt100 probes and humidity fluctuations are monitored with an accuracy of +- 1 % rF using the precise humidity and temperature probe (order number: 0636 9743). The thermal flow probe (order number: 0635 1048) is used to check laboratory flues and measure laminar flow.
 
Flow measurement in the ventilation duct according to EN 12599
 
Use Testo 480 and the flow probes to carry out VAC grid measurements according to EN 12599 and to configure your system to make it energy-efficient. The measurement results can be presented to your customers on site in the VAC measurement protocol (link to pdf).
 
We have the ideal flow probe for your duct measurements:
 
 
Flow measurement in the ventilation duct using a pitot tube
 
Observance of air flows in the ventilation duct is of utmost importance for the function of the ventilation and air conditioning system.
 
The internal differential pressure sensor of the Testo 480 is used for measuring in the case of high flow velocities and very contaminated flows, and the pitot tube for an air velocity ranging from 0 to 64 m/s. The Testo 480 simultaneously displays pressure, flow and volumetric flow. Magnets on the rear of the instrument allow hands-free work.
 
Our pitot tubes are available in different designs: in lengths of 350 mm to 1000 mm and diameters of 4 mm and 7 mm.
 
High precision temperature and humidity measurement
 
In many industrial processes, highly accurate and reliable measurement of humidity and temperature is required to ensure consistent quality. For example, in your production facilities or laboratory, temperature and humidity can be accurately measured to +/- 1% using the humidity and temperature probe (order number: 0636 9743). You need all physical factors of the Mollier diagram and the Testo 480 will calculate them for you. With the integrated measurement programs extensive options are available for monitoring your nominal values.
 
Humidity measurement in the VAC system according to EN 12599
 
In winter, the absolute humidity in the outside air is generally not enough to uphold the requirement of a pleasant room humidity of approx. 30% rF to 70% rF (as per DIN EN 13779) in buildings with ventilation and air conditioning systems. Therefore, air humidifiers are often used within ventilation systems.
 
To ensure that these systems function properly EN 12599 specifies that in addition to other measurement parameters, such as volumetric flow and temperature, relative humidity also has to be measured at different points within the VAC system. Typical measuring points are in front of and behind heat exchangers and humidifiers. Conversion into the required humidity units (e.g. absolute humidity) is possible with the Testo 480.
 
The humidity probe (order no. 0636 9743) has the ideal size of 12 mm diameter for measurement in the ventilation duct. This probe can record relative humidity and temperature in parallel. The humidity probe can also be used to assess thermal comfort within a room.
 
Measurement of indoor air quality (CO2)
 
Bad indoor air quality due to high concentrations of CO2 can cause tiredness, lack of concentration and even illness. Therefore, to ensure sufficient indoor air quality the CO2 concentration is generally not to exceed 1 000 ppm. Values of 700 to 1 500 ppm can be viewed as the “reference range”.
 
The IAQ probe (order no. 0632 1543) is particularly suitable for monitoring indoor air quality controls. This probe can be used to record CO2, temperature and relative humidity at the same time.
 
Laboratory flue gas measurement in accordance with EN 14175
 
Use the Testo 480 to measure the inflow rate and exhaust air volumetric flow rate in laboratory flues as per EN 14175. This will guarantee your customer correct positioning of the flue and efficient flue performance on site.
 
Lighting measurement
 
Suitable lighting in the workplace provides workers with sufficient light to be able to perform their jobs well. It helps to prevent mistakes being made, premature tiredness setting in, and maintains alertness.
 
Testo 480 and the Lux probe (order no. 0635 0543) can be used to measure and assess luminous intensity (natural or artificial light).
 
Measurement of the air and surface temperature
 
For human beings to be comfortable and perform at their best, it is crucial that the rooms they occupy are correctly air conditioned. As well as the structural conditions and personal perception, the following factors also contribute significantly to the existence of a pleasant indoor climate: the indoor air and surface temperature of walls, windows, floors and ceilings.
 
There is a great selection of TE temperature probes available for the Testo 480. The surface probe (order no. 0602 0393) and air humidity probe (order no. 0636 9743) can be used to investigate dew point shortfalls and mould.
 
Also part of the range: TC temperature probe with T-hinge measuring head and very quick response time for temperature measurements on surfaces (order no. 0614 0195).
 
Up to two temperature probes specially for measurements on pipes can be connected to the Testo 480 to record and show the difference in temperature in a heating system.
 
Measurement of radiated heat
 
Thermal radiation (that is, the operative or perceived temperature) in the environment can be determined with the attachment Globe thermometer (order no. 0602 0743); this comprises a black hollow copper sphere which has the tip of a mercury thermometer at its centre. The operative temperature measured with a Globe thermometer with a 150 mm diameter preferably corresponds with people's perceived temperature to ± 0.41 K.
 
The temperature measurements in a room (air temperature and operative temperature) are to be taken in the same place and same general conditions as the measurement of indoor air velocities.
 
The optional tripod (order no. 0554 0743) secures all probes safely and conveniently, even for long-term measurements.
 
Precision temperature measuring in the laboratory
 
Use the new high-precision Pt100 immersion and penetration probe to carry out measurements in laboratories with an accuracy of ± 0.05 °C in the 0 to +100 °C range.
 
The new digital precision temperature probe enables high-precision temperature measurements in liquids and pastes. After entering the calibration data in the software, your measurement will show no errors; the Testo 480 can therefore be used as a working standard.
 
Turbulence measurement in accordance with EN 13779
 
 
The air velocity in rooms directly affects thermal comfort. The turbulence and draught levels can be referred to in the assessment of comfort.
 
The level of turbulence indicates the air velocity fluctuation and intensity of air flow in a room.
 
The air velocity in rooms directly affects thermal comfort. The turbulence level is given as a percentage, calculated from the mean air velocity and air temperature in rooms. The level of turbulence indicates the air velocity fluctuation and intensity of air flow in a room. There is a direct correlation between the air temperature and turbulence level.
 
The draught rate can be generally understood as the unwanted cooling of the body due to air movement. The draught rate is defined as the percentage of people who feel uncomfortable. The draught rate is also given as a percentage, calculated from the mean flow velocity, mean temperature and turbulence level.
 
The non-directional comfort probe (order no. 0628 0143) has been specially designed to measure the turbulence level in accordance with EN 13779, and to assess the draught rate. The integrated assisted measurement program in the Testo 480 enables the standard-compliant measurement results to be analyzed directly in the measuring instrument. The optional tripod (order no. 0554 0743) secures all probes safely and conveniently, even for long-term measurements.
 
PMV-/PPD value measurement according to ISO 7730
 
A person's sense of well-being in a room (level of comfort) depends on a series of particular external influencing factors. For example, people are extremely sensitive towards thermal radiation caused by cold walls or windows. We also respond to draughts in a room with thermal discomfort.
 
Thermal comfort is defined by the following main influencing factors:
 
In turn, the effect of these main influencing factors on a person's sense of comfort depends on his or her (level of) activity and clothing. The international standard ISO 7730 combines all of the parameters in the PMV/PPD measurement (Predicted Mean Vote/Predicted Percentage Dissatisfied). The PMV is an index which predicts the average climate assessment value of a large group of people. The PPD Index provides a quantitative prediction of the number of people that will be dissatisfied with a certain ambient atmosphere.
 
The measurement program integrated into the Testo 480 directly calculates the PMV/PPD value according to ISO 7730 using optional attachment probes. The generated diagram (link to diagram) in the measuring instrument helps you to evaluate an indoor climate quickly and objectively. The PMV/PPD measurement protocol (link to pdf) records the measurement data for you and your customers.
 
WBGT measurement at workplaces exposed to heat as per DIN 33403 and ISO 7  243
 
Use the WBGT probe (Wet Bulb Globe Temperature) to measure and monitor heat stress, e.g. in the steel industry. Measure the WBGT index in compliance with the standards. In the Testo 480 this climate index is determined according to DIN 33403 and ISO 7243. Use it to ensure physical well-being in the workplace and prevent circulatory collapse, heat cramps and heat stroke.
 
Volumetric flow measurement at the air outlet
 
Every duct inlet and outlet should only contain the volumetric flow that according to calculations is a basic prerequisite to an efficient functional system.
 
The large vane anemometer with 100 mm diameter is ideal for measuring the volumetric flows at duct outlets (order no. 0635 9343), as it integrates the flow velocity over a larger area thereby determining disturbance from the air grille (loop method).
 
To measure the suction or blowing vents of air grilles and plate valves our volumetric flow rate funnel set is ideal (order no. 0563 4170) as is the large 100 mm vane anemometer (order no. 0635 9343) The entire volumetric flow is recorded with the aid of the funnel without the need for conversion on the basis of the flow velocity and area. This method of flow measurement is simple and reliable.
 
Take reliable measurements at ceiling outlets using the bendable, thermal flow probe (0635 1543).